2024
Glutathione synthesis in the mouse liver supports lipid abundance through NRF2 repression
Asantewaa G, Tuttle E, Ward N, Kang Y, Kim Y, Kavanagh M, Girnius N, Chen Y, Rodriguez K, Hecht F, Zocchi M, Smorodintsev-Schiller L, Scales T, Taylor K, Alimohammadi F, Duncan R, Sechrist Z, Agostini-Vulaj D, Schafer X, Chang H, Smith Z, O’Connor T, Whelan S, Selfors L, Crowdis J, Gray G, Bronson R, Brenner D, Rufini A, Dirksen R, Hezel A, Huber A, Munger J, Cravatt B, Vasiliou V, Cole C, DeNicola G, Harris I. Glutathione synthesis in the mouse liver supports lipid abundance through NRF2 repression. Nature Communications 2024, 15: 6152. PMID: 39034312, PMCID: PMC11271484, DOI: 10.1038/s41467-024-50454-2.Peer-Reviewed Original ResearchConceptsGlutamate-cysteine ligase catalytic subunitLipid abundanceLipogenic enzyme expressionAbundance in vivoLipid productionCatalytic subunitRepress Nrf2Transcription factorsNrf2 repressionAdult tissuesSynthesis of GSHEnzyme expressionNon-redundantRedox bufferMouse liverLoss of GSHTriglyceride productionIn vivo modelsAbundanceGlutathione synthesisLiver balanceFat storesOxidative stressLipidDeletion
2011
Glutathione-Deficient Mice Are Susceptible to TCDD-Induced Hepatocellular Toxicity but Resistant to Steatosis
Chen Y, Krishan M, Nebert DW, Shertzer HG. Glutathione-Deficient Mice Are Susceptible to TCDD-Induced Hepatocellular Toxicity but Resistant to Steatosis. Chemical Research In Toxicology 2011, 25: 94-100. PMID: 22082335, DOI: 10.1021/tx200242a.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAspartate AminotransferasesEnvironmental PollutantsFatty LiverFemaleGamma-GlutamyltransferaseGene Expression RegulationGlutamate-Cysteine LigaseGlutathioneLipid MetabolismLiverMiceMice, Inbred C57BLMice, KnockoutNon-alcoholic Fatty Liver DiseaseOligonucleotide Array Sequence AnalysisPolychlorinated DibenzodioxinsReverse Transcriptase Polymerase Chain ReactionConceptsTetrachlorodibenzo-p-dioxinGlutamic oxaloacetic transaminaseGlutamate-cysteine ligaseHepatocellular toxicityPlasma glutamic oxaloacetic transaminaseWild-type female miceImpaired lipid metabolismTissue GSH levelsTCDD-induced hepatotoxicityGlutathione-deficient miceΓ-glutamyl transferaseHepatocellular injuryWT miceHepatocellular damageLipid metabolism genesFemale miceWT littermatesTransgenic miceCDNA microarray expression analysisDe novo GSH biosynthesisOxaloacetic transaminaseLipid metabolismConsecutive daysSteatosisMiceLipid metabolism and body composition in Gclm(−/−) mice
Kendig EL, Chen Y, Krishan M, Johansson E, Schneider SN, Genter MB, Nebert DW, Shertzer HG. Lipid metabolism and body composition in Gclm(−/−) mice. Toxicology And Applied Pharmacology 2011, 257: 338-348. PMID: 21967773, PMCID: PMC3226854, DOI: 10.1016/j.taap.2011.09.017.Peer-Reviewed Original ResearchConceptsHigh-fat dietExcessive weight gainInsulin resistanceWeight gainFatty liverBasal metabolic rateGlutamate-cysteine ligase modifier subunit geneDecreased respiratory quotientExcess body weightIntestinal lipid absorptionHepatic oxidative stress responseDietary energy consumptionWild-type controlsGlucose intoleranceOxidative stress responseFat dietNormal dietRisk factorsBody compositionBody weightMetabolic rateDietary lipidsLipid absorptionMetabolic diseasesExperimental animals